ENGY.5330 Computational Transport Phenomena
Id: 042280
Credits: 3-3
Description
The goal of this course is to present a unified treatment of continuum transport phenomena using computational finite element methods. Therefore serving as a foundation for simulation of coupled fluid flow (multiphase), thermo-mechanics, heat transfer, radiation, reactive mass transfer and electromagnetics. The computational framework used is open source and based on MOOSE: Multiphysics Object-Oriented Simulation Environment. Three-dimensional models will be the end-target of this course, therefore necessary topics in parallel computing will be covered. Basic knowledge of transport phenomena is required in addition to computer programming skills of one or more object oriented languages (e.g. C++ or/and Python).
Prerequisites
ENGY.4340 Nuclear Reactor Theory, or ENGY.4350 Nuclear Reactor Engineering, or CHEN.5280 Advanced Transport Phenomena, or CHEN.5390 Mathematical Methods for Engineers, or MATH.4450 Partial Differential Equations.
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Course prerequisites/corequisites are determined by the faculty and approved by the curriculum committees. Students are required to fulfill these requirements prior to enrollment. For courses offered through online or GPS delivery, students are responsible for confirming with the instructor or department that all enrollment requirements have been satisfied before registering.